LED LIGHTING DEVICE WITH LED LAMPS PROTECTED FROM FALLING OFF
A LED lighting device includes a LED module and a diaphanous cover. The LED module includes a circuit board and a plurality of LED lamps. Each of the LED lamps includes a lens unit and a LED package. The lens unit includes a lens body, a frame and at least one pillar. The frame extends from a periphery of the lens body and is mounted on bottom of the circuit board. The pillar extends downward from a bottom surface of the frame. The LED package is mounted in the frame, and has a light emitting surface facing the lens body and a back surface joined to the bottom of the circuit board. The diaphanous cover abuts upward against all distal ends of the pillars of the LED lamps and is secured on the circuit board of the LED module.
1. Field of Invention
This invention relates to a light emitting diode (herein referred to as LED) lighting device, and more particularly to a LED lighting device which is capable of secure its LED lamps from falling off.
2. Related Prior Art
In general, a conventional LED lighting device, as described in Taiwan Pat. No. M305302, is configured to include a substrate, a number of LED modules mounted on the substrate, a lamp cover upwardly covering all the LED modules, and a plurality of heat sinks for heat dissipation of the LED modules. Each of the LED modules includes a circuit board and a plurality of LED lamps mounted on the circuit board.
Traditionally, to make the LED lighting device, the LED lamps one by one are weld onto the circuit board during the fabrication of the LED modules. The process is relatively heavy and complicated. Moreover, due to possible brittle welds or weak bond, some of the LED lamps may fall off the circuit board and down to the lamp cover after the welding or a short-term use. Thus, the LED lighting device may go from bad to worse and provide uneven or less illumination.
SUMMARY OF INVENTIONIt is an object of this invention to provide a LED lighting device which is reasonably easy to assembly.
It is a further object of this invention to provide such a lighting device which includes LED lamps well secured from falling off.
Broadly stated, the present invention is directed to a LED lighting device, comprising a LED module and a diaphanous lamp cover. The LED module includes a circuit board and a plurality of LED lamps mounted on a bottom surface of the circuit board. Each of the LED lamps includes a lens unit and a LED package coupled with the lens unit. The lens unit includes a lens body, a frame and at least one pillar. The frame extends from a periphery of the lens body. The pillar extends downward from a bottom surface of the frame. The LED package is mounted in the frame of the lens unit, and has a light emitting surface facing toward the lens body and a back surface flush with a top surface of the frame. The frame and the LED package together are attached to the bottom surface of the circuit board. The lamp cover abuts upward against all distal ends of the pillars of the LED lamps and is secured on the circuit board to uphold all the LED lamps.
According to the present invention, the pillars are employed to help the lamp cover to support all of the LED lamps. With this simple configuration, all the LED lamps are secured by the lamp cover from falling off the circuit board. The construction of LED lighting device as described above is thus far largely conventional.
Further features and advantages of the present invention will be appreciated by review of the following detailed description of the invention.
The invention is illustrated by the accompanying drawings in which corresponding parts are identified by the same numerals and in which:
Referring now to
As can be seen in
As shown in
On the other hand, each of the posts 65 of the lens units 60 extends upward from the top surface 620 of the frame 62 and be inserted into the corresponding hole 54 of the circuit board 5. In this way, each of the lens units 60 is well positioned and prevented from lateral movement with respect to the LED packages 64. For more reliability, the posts 65 may further be adhered to inner walls of the holes 54 of the circuit board 5 by adhesive. It is noted that the diaphanous cover 4 illustrated in
The heat sink 3 is mounted on the top surface 52 of the circuit board 5 for heat dissipation of the LED module 2. The heat sink 3 includes a number of fins 53 spaced at a distance apart and a heat pipe (not shown) passed through the fins 53 to enhance the dissipation effect.
Turing in detail to
Specifically, as shown in
With reference to
Each of the LED lamps 6 includes a lens unit 60 and a LED package 64 mounted in the lens unit 60, as shown in
As with the LED lamps 6 of
Referring to
It will be appreciated that although a particular embodiment of the invention has been shown and described, modifications may be made. It is intended in the claims to cover such modifications which come within the spirit and scope of the invention.
Claims
1. A lens unit comprising:
- an optical lens body;
- a frame extending from a periphery of the lens body and having a top surface to be joined with a circuit board; and
- at least one pillar extending downward from a bottom surface of the frame and having a horizontal level lower than or equal to that of the lens body.
2. The lens unit of claim 1, further having a receiving room defined by the frame and the lens body for reception of a LED package; and the receiving room is dimensioned to match the size of the LED package such that the lens unit is able to keep the LED package in the receiving room from horizontal movement.
3. The lens unit of claim 1, further comprising at least one front protrusion extending from a front side of the frame and at least one rear supporting portion formed on a rear side of the frame where the pillar is located; wherein when the frame is attached onto the circuit board, the front protrusion of the lens unit is able to be upheld by an adjacent rear supporting portion of another lens unit and the rear supporting portion of the lens unit is able to uphold an adjacent front protrusion of yet another lens unit.
4. The lens unit of claim 3, further comprising at least positioning post extending upward from the top surface of the frame to be inserted into a corresponding hole of the circuit board.
5. A LED lamp for being mounted on a circuit board, comprising:
- a lens unit including a lens body, a frame and at least one pillar; the frame extending from a periphery of the lens body and having a top surface to be joined with the circuit board; the pillar extending downward from a bottom surface of the frame and having a horizontal level lower than or equal to that of the lens body; and
- a LED package mounted in the frame, and having a light emitting surface facing toward the lens body and a back surface being flush with the top surface of the frame to be joined to the circuit board.
6. The LED lamp of claim 5, wherein the lens unit further comprises at least one front protrusion extending from a front side of the frame and at least one rear supporting portion formed on a rear side of the frame where the pillar is located; and when the frame is attached onto the circuit board, the front protrusion of the lens unit is able to be upheld by an adjacent rear supporting portion of another lens unit and the rear supporting portion of the lens unit is able to uphold an adjacent front protrusion of yet another lens unit.
7. The LED lamp of claim 5, further comprising at least one post extending upward from the top surface of the frame to be inserted into a corresponding hole of the circuit board.
8. The LED lamp of claim 5, wherein the lens unit has a receiving room defined by the frame and the lens body to receive the LED package; the receiving room is dimensioned to match the size of the LED package such that the LED package can be kept in the receiving room from horizontal movement.
9. A LED lighting device, comprising:
- a LED module including a circuit board and a plurality of LED lamps mounted on a bottom surface of the circuit board; each LED lamp including a lens unit and a LED package; the lens unit including a lens body and a frame;
- the frame extending from a periphery of the lens body and having a top surface joined with the bottom surface of the circuit board; the LED package mounted in the frame of the lens unit and having a light emitting surface facing toward the lens body and a back surface which is flush with the top surface of the frame and joined to the bottom surface of the circuit board; and
- a diaphanous cover abutting upward against all distal bottom ends of the LED lamps and secured onto the circuit board of the LED module so as to uphold all the LED lamps.
10. The LED lighting device of claim 9, wherein the lens unit further includes at least one pillar extending downward from a bottom surface of the frame; and the diaphanous cover abuts against all distal bottom ends of the pillars of the LED lamps to uphold all the LED lamps.
11. The LED lighting device of claim 10, wherein the lens unit further comprises at least one front protrusion extending from a front side of the frame and at least one rear supporting portion formed on a rear side of the frame where the pillar is located; and when the frame is attached onto the circuit board, the front protrusion of the lens unit is able to be upheld by an adjacent rear supporting portion of another lens unit and the rear supporting portion of the lens unit is able to uphold an adjacent front protrusion of yet another lens unit.
12. The LED lighting device of claim 10, wherein each of the LED lamps further comprising at least one post extending upward from the top surface of the frame and being received in a corresponding hole of the circuit board.
13. The LED lighting device of claim 10, wherein the lens unit has a receiving room defined by the frame and the lens body to receive the LED package; the receiving room is dimensioned to match the size of the LED package such that the LED package can be kept in the receiving room from horizontal movement.
14. The LED lighting device of claim 10, further comprising a heat sink mounted on top of the circuit board.
Type: Application
Filed: Aug 2, 2010
Publication Date: Aug 11, 2011
Patent Grant number: 8858021
Inventor: Hung-Pin Kuo (Taichung City)
Application Number: 12/848,687
International Classification: F21V 1/00 (20060101); F21V 5/00 (20060101);